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158. Godard P, Biebuyck JJ, Daumerie M, Naveau H, Mercier JP (1978) Crystallization and melt-
ing of aqueous gelatin. J Polym Sci Polym Phys Ed 16:1817-1828
159. Domszy RC, Alamo R, Edwards CO, Mandelkern L (1986) Thermoreversible gelation and
crystallization of homopolymers and copolymers. Macromolecules 19:310-325
160. Boedtker H, Doty P (1954) A study of gelatin molecules, aggregates and gels. J Phys Chem
58:968-983
161. Djabourov M, Leblond J, Papon P (1988) Gelation of aqueous gelatin solutions. I. Structural
investigation. J Phys France 49:319-332
162. Guo L, Colby RH, Lusignan CP, Whitesides TH (2003) Kinetics of triple helix formation in
semidilute gelatin solutions. Macromolecules 36:9999-10008
163. Flory PJ, Weaver ES (1960) Helix ↔ coil transition in dilute aqueous collagen solutions. J
Am Chem Soc 82:4518-4525
164. Guigo N, Sbirrazzuoli N, Vyazovkin S (2012) Atypical gelation in gelatin solutions probed
by ultra fast calorimetry. Soft Matter 8:7116-7121
165. Chen K, Vyazovkin S (2009) Temperature dependence of sol-gel conversion kinetics in
gelatin-water system. Macromol Biosci 9:383-392
166. Ohkura M, Kanaya T, Kaji K (1992) Gelation rates of poly(vinyl alcohol) solution. Polymer
33:5044-5048
167. Malik S, Jana T, Nandi AK (2001) Thermoreversible gelation of regioregular poly(3-hexyl-
thiophene) in xylene. Macromolecules 34:274-282
168. Dikshit AK, Nandi AK (2001) Gelation mechanism of thermoreversible gels of
poly(vinylidene fluoride) and its blends with poly(methyl acrylate) in diethyl azelate. Lang-
muir 17:3607-3615
169. Chen K, Baker AN, Vyazovkin S (2009) Concentration effect on temperature dependence of
gelation rate in aqueous solutions of methylcellulose. Macromol Chem Phys 210:211-216
170. Harrington WF, Rao NV (1970) Collagen structure in solution. I. Kinetics of helix regenera-
tion in single-chain gelatins. Biochemistry 9:3714-3724
171. Eagland D, Pilling G, Wheeler RG (1974) Studies of the collagen fold formation and gela-
tion in solutions of a monodisperse α gelatin. Faraday Discuss 57:181-200
172. Michon C, Cuvelier G, Launay B (1993) Concentration dependence of the critical viscoelas-
tic properties of gelatin at the gel point. Rheol Acta 32:94-103
173. Kobayashi K, Huang C, Lodge TP (1999) Thermoreversible gelation of aqueous methylcel-
lulose solutions. Macromolecules 32:7070-7077
174. Stolin AM, Merzhanov AG, Malkin AYa (1979) Non-isothermal phenomena in polymer
engineering and science: a review-2. Non-isothermal phenomena in polymer deformation.
Polym Eng Sci 19:1074-1080
175. Takahashi M, Shimazaki M, Yamamoto J (2001) Thermoreversible gelation and phase sepa-
ration in aqueous methyl cellulose solutions. J Polym Sci B 39:91-100
176. Guigo N, Sbirrazzuoli N, Vyazovkin S (2012) Gelation on heating of supercooled gelatin
solutions. Macromol Rapid Commun 33:698-702
177. Zhuravlev E, Schmelzer JWP, Wunderlich B, Schick C (2011) Kinetics of nucleation and
crystallization in poly(ε-caprolactone) (PCL). Polymer 52:1983-1997
178. Dranca I, Vyazovkin S (2009) Thermal stability of gelatin gels: effect of preparation condi-
tions on the activation energy barrier to melting. Polymer 50:4859-4867
179. te Nijenhuis K (1981) Investigation into the ageing process in gels of gelatin/water systems
by the measurement of their dynamic moduli—Part II: mechanism of the ageing process.
Colloid Polym Sci 259:1017-1026
180. Teramoto A (2001) Cooperative conformational transitions in linear macromolecules under-
going chiral perturbations. Prog Polym Sci 26:667-720
181. Smeller L (2002) Pressure-temperature phase diagrams of biomolecules. Biochim Biophys
Acta 1595:11-29
182. Lumry R, Eyring H (1954) Conformation changes of proteins. J Phys Chem 58:110-120
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